AbstractRecent protein design experiments have demonstrated that proteins can migrate between folds through the accumulation of substitution mutations without visiting disordered or nonfunctional points in sequence space. To explore the biophysical mechanism underlying such transitions we use a three-letter continuous protein model with seven atoms per amino acid to provide realistic sequence-structure and sequence-function mappings through explicit simulation of the folding and interaction of model sequences. We start from two 16-amino-acid sequences folding into an α-helix and a β-hairpin, respectively, each of which has a preferred binding partner with 35 amino acids. We identify a mutational pathway between the two folds, which features...
Naturally occurring metamorphic proteins have the ability to interconvert from one folded state to a...
In this article we use mutation studies as a benchmark for a minimal model of the folding process of...
Proteins emerged from the evolutionary process shaped by natural selection. Insights into the evolut...
AbstractRecent protein design experiments have demonstrated that proteins can migrate between folds ...
Recent protein design experiments have demonstrated that proteins can migrate between folds through ...
SummaryWhile disordered to ordered rearrangements are relatively common, the ability of proteins to ...
Fold switching may play a role in the evolution of new protein folds and functions. He et al., in th...
One of the basic tenets of biophysics is that a globular protein, under physiological conditions, f...
<div><p>Deciphering the effects of nonsynonymous mutations on protein structure is central to many a...
AbstractMetamorphic proteins, including proteins with high levels of sequence identity but different...
Proteins are biological macromolecules that are involved in a wide range of cellular processes. The ...
AbstractThe impact on protein evolution of the physical laws that govern folding remains obscure. He...
Recent experiments uncovered a mutational pathway between two proteins, along which a single mutatio...
AbstractTo investigate a putatively primordial protein we have simplified the sequence of a 56-resid...
© 2000 by the Biophysical SocietyThe impact on protein evolution of the physical laws that govern fo...
Naturally occurring metamorphic proteins have the ability to interconvert from one folded state to a...
In this article we use mutation studies as a benchmark for a minimal model of the folding process of...
Proteins emerged from the evolutionary process shaped by natural selection. Insights into the evolut...
AbstractRecent protein design experiments have demonstrated that proteins can migrate between folds ...
Recent protein design experiments have demonstrated that proteins can migrate between folds through ...
SummaryWhile disordered to ordered rearrangements are relatively common, the ability of proteins to ...
Fold switching may play a role in the evolution of new protein folds and functions. He et al., in th...
One of the basic tenets of biophysics is that a globular protein, under physiological conditions, f...
<div><p>Deciphering the effects of nonsynonymous mutations on protein structure is central to many a...
AbstractMetamorphic proteins, including proteins with high levels of sequence identity but different...
Proteins are biological macromolecules that are involved in a wide range of cellular processes. The ...
AbstractThe impact on protein evolution of the physical laws that govern folding remains obscure. He...
Recent experiments uncovered a mutational pathway between two proteins, along which a single mutatio...
AbstractTo investigate a putatively primordial protein we have simplified the sequence of a 56-resid...
© 2000 by the Biophysical SocietyThe impact on protein evolution of the physical laws that govern fo...
Naturally occurring metamorphic proteins have the ability to interconvert from one folded state to a...
In this article we use mutation studies as a benchmark for a minimal model of the folding process of...
Proteins emerged from the evolutionary process shaped by natural selection. Insights into the evolut...